A protocol generates loss-robust crossband entanglement by leveraging intraband entanglement, exceeding direct-transduction limits with performance scaling with input brightness.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
quant-ph 2verdicts
UNVERDICTED 2representative citing papers
In molecular optomechanical cavities the anti-Stokes sideband gives higher conversion efficiency under red detuning while the Stokes sideband amplifies the infrared signal under blue detuning, with added noise reaching the one-quantum limit in the amplification regime.
citing papers explorer
-
Loss-robust crossband entanglement generation beyond the direct-transduction limit
A protocol generates loss-robust crossband entanglement by leveraging intraband entanglement, exceeding direct-transduction limits with performance scaling with input brightness.
-
Frequency upconversion of infrared signals via molecular optomechanical cavities
In molecular optomechanical cavities the anti-Stokes sideband gives higher conversion efficiency under red detuning while the Stokes sideband amplifies the infrared signal under blue detuning, with added noise reaching the one-quantum limit in the amplification regime.